RU2659958C2 - Method for assessment of mycobacterium tuberculosis medicinal sensitivity based on results of blood immunological indices determination in patient with pulmonary tuberculosis - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method for assessment of Mycobacterium tuberculosis medicinal sensitivity of based on the results of blood immunological indices determination in a patient with pulmonary tuberculosis includes a blood test in which the absolute amount of phagocytic granulocytes and T lymphocytes expressing the HLA-DR-Ag late activation marker is established. The results are calculated by the formula Y=1.76-5.08X1-0.17X2, where X1 is CD3⁺HLA-DR⁺(10⁹/liter), X2 is the number of phagocytic granulocytes (10⁹/liter). At a value of Y<1, a conclusion is made about the medicine-sensitive isolates of the tuberculosis causative agent, and at Y≥1 - about isolates without medicinal sensibility.

EFFECT: application of this invention allows to assess Mycobacterium tuberculosis medicinal sensitivity without performing bacteriological tests, which reduces the variability of data between the test samples.

4 ex

Description

к лекарственным препаратам без проведения длительных бактериологических тестов, основанных на изучении задержки роста культуры в присутствии тестируемых лекарственных средств или проведения молекулярно-генетических тестов, ограниченных узким кругом выявляемых мутаций, определяющих устойчивость патогена. Важность разработки способа определяется необходимостью скорейшего назначения стандартной схемы лекарственной терапии с учетом установленной чувствительности возбудителя для достижения оптимального результата лечения, что позволит экономить бюджетные деньги, выделяемые на восстановление здоровья у данной категории больных.The invention relates to medicine, namely to clinical laboratory diagnostics, and can be used to assess sensitivity

to drugs without long bacteriological tests based on the study of growth retardation in the presence of tested drugs or molecular genetic tests, limited to a narrow circle of detectable mutations that determine pathogen resistance. The importance of the development of the method is determined by the need for the early appointment of a standard regimen of drug therapy, taking into account the established sensitivity of the pathogen to achieve the optimal treatment result, which will save budget money allocated to restore health in this category of patients.

It is known that drug sensitivity is a property that characterizes a microorganism. The definition of drug sensitivity is the identification of “the possibility of using standard chemotherapy with the indicated drug for the treatment of a disease caused by an isolated strain” [1]. The opposite concept - sustainability - "predicts failure of treatment with the test chemotherapy drug." Currently existing methods for determining drug sensitivity are based on a direct study of the characteristics of the pathogen and are divided into 2 categories: cultural and molecular genetic [2].

Cultural methods differentiate into types of direct and indirect definition. Direct determination can be carried out by cultivation on solid or liquid nutrient media. Automated and non-automated methods of analysis are possible.

высевают на среду, содержащую / не содержащую лекарственный препарат, инкубируют в изотермических условиях, результат фиксируют путем подсчета количества колоний

с последующим расчетом лекарственной чувствительности. Недостатками способа являются: высокий риск контаминации, невозможность получения результата в случае отсутствия роста культуры, низкая воспроизводимость результатов, необходимость предварительной подготовки образца - гомогенизация, обеззараживание, недозированный посев (повышает риск инфицирования исследователя), длительность исследования (2-3 недели).When directly determining the test material with

seeded on a medium containing / not containing a medicinal product, incubated in isothermal conditions, the result is fixed by counting the number of colonies

with the subsequent calculation of drug sensitivity. The disadvantages of the method are: a high risk of contamination, the inability to obtain a result in the absence of culture growth, low reproducibility of the results, the need for preliminary sample preparation — homogenization, disinfection, unmetered culture (increases the risk of infection of the researcher), the duration of the study (2-3 weeks).

For indirect determination (the method of proportions, the method of stability coefficient, the method of absolute concentrations), a preliminary stage of cultivating the sample on the broth is carried out, followed by plating on the medium, as in the direct definition. The disadvantages are: a significant lengthening of the time to obtain the result (in some cases up to 40 days), the need for more consumables for the study, and the limitations described above.

One example of the use of cultural methods is a method for determining the sensitivity of microorganisms with multidrug resistance to combinations of antibacterial drugs (Pat. No. 2388827, authors: Panina T.A., Efanova L.I., Davydova V.V.), including inoculation into a test tube with meat and peptone broth of the studied culture of microorganisms, the introduction of antibacterial drugs, incubation for 12-18 hours in an thermostat at a temperature of 36 ± 1 ° C, the subsequent visual assessment of the transparency of the contents of the tube, different the fact that standard paper discs impregnated with an antibacterial drug are used for the study, one tube with meat and peptone broth is taken for each combination, after incubation with a visual absence of turbidity in the test tube, a conclusion is made about the sensitivity of microorganisms to a combination of antibacterial drugs. The disadvantage of this method is its applicability to microorganisms with multidrug resistance, its applicability to microorganisms with unknown drug sensitivity has not been shown.

Another example of the use of the cultural method for determining drug sensitivity is the use of automated and semi-automated systems such as WASTES 460TV and others. A significant disadvantage of their use is the high cost of consumables, the need for quality control of each series of tubes, the duration of the study is up to 2-3 weeks, as well as the need for preliminary sample preparation (dilution, decontamination, concentration).

, результатом которой становится изменение цвета реактива, содержащей питательную среду с патогеном. Недостатками метода являются длительность получения результатов (8-12 суток), необходимость большого количества реагентов, значительное количество манипуляций при выполнении исследования [3].There is a modification of the cultural research method for assessing drug sensitivity using the Griss reagent. It consists in the determination of nitrate reductase activity

, the result of which is a discoloration of a reagent containing a nutrient medium with a pathogen. The disadvantages of the method are the duration of obtaining results (8-12 days), the need for a large number of reagents, a significant number of manipulations when performing the study [3].

In general, bacterial diagnostics has the following disadvantages [4]: the need to use specialized equipment — class 2 biological safety cabinets, which protect the operator and preserve the bio-sample from contamination, the need to use pure substances of anti-TB drugs (risk of allergic reactions in the operator), activity variability drug in different series of the manufacturer, the dependence of the test results on the quality of the nutrient medium and stub the strength of drug solutions, the likelihood of inactivation of certain drugs under the influence of a number of media components, the instability of drugs as compounds as a result of sterilization and storage, the need to recalculate the concentration of the drug in salt compounds, since active substances make up only part of the mass studied (sulfates, hydrochlorides) , the effect on the result of the concentration of introduced microorganisms (an increase in the number stimulates drug resistance), the dependence of the result on the age of the culture, the duration of incubation, the need for additional reseeding of the culture in case of its unexpressed growth.

Another group of methods for detecting drug sensitivity is based on the use of molecular genetic methods, which make it possible to establish a substrate of changes leading to the emergence of resistance, namely, to determine mutations in the genome of a microorganism. Four main types of the above technology are known: the use of cartridges, the strip method, the use of biochips and routine PCR (polymerase chain reaction). The disadvantages of this group of methods are the lack of a list of all known existing mutations, which limits the use of technology in the clinic, the need for organizational and spatial design of the laboratory to perform studies of this kind, the availability of trained personnel, expensive equipment, reagents and disposable supplies. In addition, this group of methods cannot be used in the absence of bacterial excretion in the patient, which is not uncommon in clinical practice. This condition can occur, for example, with a decrease in bronchial drainage. The latter can lead to false negative results and the need for surgical or endoscopic intervention to obtain the research material.

An example of the use of molecular genetic methods is the existing TB-Biochip test system, which allows one to detect drug resistance of tuberculosis pathogen strains to rifampicin and isoniazid in less than a day [5]. The disadvantages of this method are the need for a full range of conditions for PCR analysis.

Another example is the Xpert MTB / RIF method, which presents an automated molecular test for rifampicin resistance. Advantages: research speed - less than 2 hours, high sensitivity and specificity. The disadvantages of the method: the high cost of analyzes, a “closed system” - the inability to use supplies from another manufacturer, the inability to determine multiple drug resistance.

There is a method based on the use of routine PCR to detect drug resistance of a microorganism [6]. The sample of clinical material thus becomes the source of the target DNA for the reaction, and the copied PCR product is analyzed to identify mutations associated with antibiotic resistance. The advantages of the method are the high speed of the analysis (1 day). Disadvantages: the need for special facilities, equipment and materials for PCR analysis, a high risk of infection of the operator with tuberculosis.

из-под контроля иммунной системы, в том числе, с отбором лекарственно устойчивых форм для пребывания внутри организма в течение значительного временного промежутка. Исходя из вышеизложенного, можно утверждать, что лекарственную чувствительность патогена можно оценить, изучая данные реакции иммунологической системы инфицированного человека.Thus, at present, the cultural method of research remains the leading in the assessment of drug sensitivity [7]. However, having information that drug sensitivity is a property of a microorganism and, based on data on the long-term existence of a pathogen in the human body after it penetrates inside, it can be argued that the relationship between the pathogen and the macroorganism is evolutionarily formed stable in nature. The result of the latter is the fact of leaving

from the control of the immune system, including the selection of drug-resistant forms for staying within the body for a significant time period. Based on the foregoing, it can be argued that the drug sensitivity of the pathogen can be estimated by studying the reaction data of the immunological system of an infected person.

[8, 9], вместе с тем, технические решения, формулирующие способы оценки чувствительности возбудителя, полагающиеся на данные иммунологических исследований, ограничены.Currently, there is enough information characterizing impaired immune system activity in the presence of drug-resistant

[8, 9], however, technical solutions formulating methods for assessing the sensitivity of the pathogen, relying on data from immunological studies, are limited.

, вакцинным штаммом БЦЖ, сложности стандартизации метода, трудности в использовании способа лабораториями лечебных учреждений (необходим квалифицированный персонал).There is an immunological method for assessing drug sensitivity based on the determination of the level of stimulated production of IL-2 (with drug-sensitive pulmonary tuberculosis, IL-2 is higher), and IL-2-secreting reactivity of blood lymphocytes (increases with drug-resistant tuberculosis) [10]. The disadvantages of the method are the lack of clear criteria for changing indicators, the need for the cultivation of leukocytes, the need to work with protein and lipid antigen isolated from

, BCG vaccine strain, difficulties in standardizing the method, difficulties in using the method by laboratories of medical institutions (qualified personnel are required).

A known method for assessing drug sensitivity, which consists in determining the level of lipopolysaccharide (LPS) - stimulated production of NO in newly diagnosed patients with advanced destructive tuberculosis, followed by calculation of the forecast formula according to the equation y = exp (10.4271 + (- 96.495) * x) / (1 + exp (10.4271 + (- 96.495) * x)) [11], which allows predicting the likelihood of multidrug-resistant tuberculosis (MDR). In particular, the probability of having tuberculosis with MDR, equal to 80%, is observed with LPS-stimulated production by NO mononuclear cells of blood ≤0.1 mol / ml, equal to 100% with LPS-activated production of the radical ≤0.05 mol / l.

The disadvantages of this method are: the need for preliminary isolation of blood mononuclear cells on a density gradient, which does not guarantee the absence of platelets and neutrophils (they are significant producers of NO, which can distort the result of the study depending on their number in the sample, the accuracy of the study is reduced). Nitric oxide is rapidly oxidized to nitrite / nitrate by oxygen (its half-life is from less than 1 second in the presence of hemoglobin to 30 seconds [12], therefore, its concentration substantially depends on the time of analysis after blood sampling (reduces the accuracy of the study); there is a high probability of discrepancy in the results obtained, since the Griss reaction is two-stage, difficulties in standardizing the LPS of different series of the manufacturer; the need for self-preparation of reagents, which increases error five studies (in particular, preparing the nutrient medium, containing RPMI-1640-inactivated fetal calf serum, L-glutamine, gentamicin, HEPES); low diagnostic specificity fashion - 79%.

The closest analogue adopted for the prototype is a method for evaluating the drug sensitivity of Mycobacterium tuberculosus based on the results of determining immunological blood parameters in a patient with pulmonary tuberculosis, including a study determining the level of spontaneous production of TNF-α in vitro. A value of more than 165 pg / ml allows predicting the presence of MDR Mycobacterium tuberculosus (http://www.dissercat.com/content/faktorv-riska-assotsiirovannye-s-mnozhestvenno-lekarstvenno-ustoichivym-tuberkulezom).

The known method has the following disadvantages:

- the duration of obtaining the supernatant for the direct determination of TNF;

- the complexity of the preanalytical stage (obtaining supernatant);

- the need for special equipment for cultivation (CO ₂ incubator);

- the need to use disposable tableware and supplies;

- the need to use a large number of additional reagents (salt, medium, serum);

- there is no information on the standardization of supernatants from different samples (the abstract on page 30 mentions significant variability ("the relative risk of developing MDR-TB against the background of an increase in TNF production from above 165 pg / ml was high, but had a significant spread").

к лекарственным препаратам, снижение трудоемкости (упрощение способа), уменьшение вариабельности данных между образцами.The objective and technical result of the claimed invention is to reduce the time to obtain the result of the study in assessing sensitivity

to drugs, reducing the complexity (simplifying the method), reducing the variability of data between samples.

To solve the problem in a method for evaluating the drug sensitivity of Mycobacterium tuberculosus based on the results of determining immunological parameters of blood in a patient with pulmonary tuberculosis, including a blood test, the absolute amount of phagocytic granulocytes and T lymphocytes expressing the late activation marker HLA-DR-Ag with by calculating the result according to the formula Y = 1.76-5.08 X1-0.17 X2, where X1 is CD3 ⁺ HLA-DR ⁺ (10 ⁹ / sheet), X2 is the number of phagocytic granulocytes (10 ⁹ / liter) and with a value of Y < 1 make zack Information on the presence of drug-sensitive isolates of the causative agent of tuberculosis, and Y≥1 - isolates that do not have drug sensitivity (stable isolates).

, утром, натощак, до начала лечения и проведения физиотерапевтических процедур берут венозную кровь из локтевой вены в пробирку с антикоагулянтом (гепарин) с соблюдением правил асептики и антисептики. Достаточное для исследования количество биологической жидкости составляет 1 мл. Определение количества фагоцитирующих гранулоцитов проводят методом проточной цитофлюориметрии, применяя тест-систему любого производителя, например - Phagotest (Glycotope Biotechnology, Germany). Популяцию Т-лимфоцитов, экспрессирующих маркер поздней активации HLA-DR-Ag (CD3+HLA-DR+), используя проточный цитофлюориметр и моноклональные антитела любой доступной марки, например, Beckman Coulter (USA). Полученные значения количества CD3⁺HLA-DR⁺ и числа фагоцитирующих гранулоцитов включают в выражение Y=1,76-5,08X1-0,17X2, где X1 - CD3⁺HLA-DR⁺(10⁹/л), Х2 - фагоцитирующие гранулоциты (10⁹/л). Значение Y<1 свидетельствует о наличии лекарственно чувствительных изолятов возбудителя туберкулеза, а Y≥1 - не имеющих лекарственной чувствительности (устойчивые изоляты).The inventive method is as follows. In a patient having

, in the morning, on an empty stomach, before starting treatment and physiotherapeutic procedures, venous blood is taken from the ulnar vein into a test tube with an anticoagulant (heparin) in compliance with aseptic and antiseptic rules. A sufficient amount of biological fluid for the study is 1 ml. The number of phagocytic granulocytes is determined by flow cytofluorimetry using a test system of any manufacturer, for example, Phagotest (Glycotope Biotechnology, Germany). A population of T-lymphocytes expressing the late activation marker HLA-DR-Ag (CD3 + HLA-DR +) using a flow cytometer and monoclonal antibodies of any available brand, for example, Beckman Coulter (USA). The obtained values of the number of CD3 ⁺ HLA-DR ⁺ and the number of phagocytic granulocytes are included in the expression Y = 1.76-5.08X1-0.17X2, where X1 - CD3 ⁺ HLA-DR ⁺ (10 ⁹ / l), X2 - phagocytic granulocytes (10 ⁹ / l). A value of Y <1 indicates the presence of drug-sensitive isolates of the causative agent of tuberculosis, and Y≥1 indicates no drug sensitivity (resistant isolates).

и 17 больных, не имеющих лекарственной чувствительности (изоляты с множественной лекарственной устойчивостью). Средний возраст обследованных составил 35,6±2,0 года. Из них было 18(61,0%) мужчин и 11(39,0%) женщин. Контрольную группу составили 25 практически здоровых доноров со средним возрастом 36,0±2,8 лет. Из них было 15(60,0%) мужчин и 10(40,0%) женщин. Установлено, что при наличии лекарственной чувствительных изолятов

фагоцитарная активность гранулоцитов увеличивается, на Т-лимфоцитах наблюдается повышение экспрессии маркеров активации (HLA-DR), туберкулез, вызванный изолятами

, не имеющими лекарственной чувствительности (с множественной лекарственной устойчивостью), характеризуется снижением фагоцитарной активности гранулоцитов и экспрессии HLA-DR на Т-лимфоцитах. Используя регрессионный метод, было проведено статистическое исследование для поиска взаимосвязи иммунологических показателей с наличием лекарственной чувствительности возбудителя. Сравнение данных пациентов с лекарственно чувствительными изолятами

и пациентов, у которых туберкулез был вызван

с изолятами, не имеющими лекарственной чувствительности (с множественной лекарственной устойчивостью), было получено регрессионное уравнение Y=1,76-5,08X1-0,17X2, где X1 - CD3⁺HLA-DR⁺(10⁹/л), Х2 - фагоцитирующие гранулоциты (10⁹/л). Значение Y<1 ассоциировано с наличием лекарственной чувствительности изолятов возбудителя туберкулеза, a Y≥1 - изолятов в отсутствие лекарственной чувствительности (с множественной лекарственной устойчивостью). В частности, снижение на 5,08% количества CD3⁺HLA-DR⁺-лимфоцитов увеличивает на 1% вероятность обнаружения инфильтративного туберкулеза с возбудителем, не имеющим лекарственной чувствительности (с множественной лекарственной устойчивостью). Достоверность коэффициентов регрессии и свободного члена уравнения составила менее 0,05, коэффициент детерминации на обучающей выборке - 0,81 (R₂=0,82), F(4, 23)=6,41, р<0,001. Для оценки возможности использования данного теста в клинической практике нами были рассчитаны стандартные статистические показатели диагностической чувствительности (82,6%) и диагностической специфичности (82,4%) по общепринятым формулам (http://pubhealth.spb.ru/EBM/Epid /EpidRusG04.htm). Способ апробирован в ФГБУ «Уральский НИИ фтизиопульмонологии» Минздрава России на 36 пациентах тестовой группы, имевших M.tuberculosis, распределение пациентов по лекарственной чувствительности и устойчивости возбудителя было сопоставимо с группой, позволившей выявить установленную закономерность.To identify the proposed pattern, a blood test was performed in 12 patients with infiltrative pulmonary tuberculosis with drug-resistant isolates.

and 17 patients with no drug sensitivity (multidrug-resistant isolates). The average age of the examined was 35.6 ± 2.0 years. Of these, 18 (61.0%) were men and 11 (39.0%) were women. The control group consisted of 25 healthy donors with an average age of 36.0 ± 2.8 years. Of these, 15 (60.0%) were men and 10 (40.0%) were women. It is established that in the presence of drug-sensitive isolates

the phagocytic activity of granulocytes increases, on T-lymphocytes there is an increase in the expression of activation markers (HLA-DR), tuberculosis caused by isolates

that do not have drug sensitivity (multidrug resistance) is characterized by a decrease in the phagocytic activity of granulocytes and the expression of HLA-DR on T-lymphocytes. Using the regression method, a statistical study was conducted to find the relationship of immunological parameters with the presence of drug sensitivity of the pathogen. Comparison of Patient Data with Drug Sensitive Isolates

and patients in whom tuberculosis was caused

with isolates without drug sensitivity (multidrug resistance), the regression equation Y = 1.76-5.08 X1-0.17 X2 was obtained, where X1 is CD3 ⁺ HLA-DR ⁺ (10 ⁹ / L), X2 is phagocytic granulocytes (10 ⁹ / l). The value Y <1 is associated with the presence of drug sensitivity of isolates of the causative agent of tuberculosis, and Y≥1 - isolates in the absence of drug sensitivity (with multidrug resistance). In particular, a 5.08% decrease in the number of CD3 ⁺ HLA-DR ⁺ lymphocytes increases by 1% the likelihood of detecting infiltrative tuberculosis with a pathogen that does not have drug sensitivity (multidrug resistance). The reliability of the regression coefficients and the free member of the equation was less than 0.05, the coefficient of determination on the training sample was 0.81 (R ₂ = 0.82), F (4, 23) = 6.41, p <0.001. To assess the possibility of using this test in clinical practice, we calculated standard statistical indicators of diagnostic sensitivity (82.6%) and diagnostic specificity (82.4%) using generally accepted formulas (http://pubhealth.spb.ru/EBM/Epid / EpidRusG04.htm). The method was tested in the FSBI "Ural Research Institute of Phthisiopulmonology" of the Ministry of Health of Russia on 36 patients of the test group who had M. tuberculosis, the distribution of patients according to drug sensitivity and pathogen resistance was comparable with the group that allowed to identify the established pattern.

представленными иммунологическими методами. Таким образом, заявляемое изобретение соответствует критерию «новизна».In the available scientific, medical and patent literature, the authors did not find information about the popularity of the method for assessing drug sensitivity

represented by immunological methods. Thus, the claimed invention meets the criterion of "novelty."

Таким образом, заявляемое изобретение соответствует критерию «изобретательский уровень».The studies of the authors for the first time proved that the expression of HLA-DR-Ag ⁺ on T-lymphocytes (a marker of late activation of the cellular immunity unit) and the phagocytic activity of blood granulocytes in patients with tuberculosis reflect drug sensitivity

Thus, the claimed invention meets the criterion of "inventive step".

The inventive method can be reproduced in a medical institution (clinic, hospital), which has a flow cytometer among laboratory equipment. Thus, the claimed invention meets the criterion of "industrial applicability".

The inventive method is illustrated by the following clinical examples.

обнаружены 23.03.12 в мокроте и промывных водах бронхов методом люминесцентной микроскопии (26.12.13). В общем анализе крови (29.02.12): лейкоцитоз - 9,9*10⁹/л, гранулоцитов - 6,99*10⁹/л, базофилов - 0,10*10⁹/л, эозинофилов - 2,87*10⁹/л, лимфоцитов - 1,73*10⁹/л, моноцитов - 1,18*10⁹/л. Фагоцитирующих гранулофитов - 5,9*10⁹/л, CD3+HLA-DR+ - 0,066*10⁹/л, Y=0,4, сделано заключение о лекарственной чувствительности изолята

Терапия: канамицин, рифампицин, пиразинамид, этамбутол, изониазид, левофлоксацин, режим терапии IA(-). Длительность лечения в стационаре составила 145 суток. Исход заболевания - выздоровление.1. Patient M., born in 1971, was treated at the Federal State Budgetary Institution "UNIIF" of the Ministry of Health of Russia in 2012. Ds: infiltrative pulmonary tuberculosis, lesion of three lobes, resorption phase. Concomitant pathology: chronic gastritis, chronic cholecystitis. The date of initial diagnosis is 12/01/2011 with the appearance of clinical signs confirmed by the x-ray method. Since 2010, anasarca without fever has been detected (pleurisy, pericarditis, ascites, peripheral edema), since 2011 - decreased performance, fever, sweating, cough with sputum. Socially adapted: a resident of the city, has a wife, a child, the position held - director, denies tuberculous contact, does not smoke.

found on 03/23/12 in sputum and lavage water of the bronchi by luminescence microscopy (12/26/13). In the general analysis of blood (02.29.12): leukocytosis - 9.9 * 10 ⁹ / l, granulocytes - 6.99 * 10 ⁹ / l, basophils - 0.10 * 10 ⁹ / l, eosinophils - 2.87 * 10 ⁹ / l, lymphocytes - 1.73 x 10 ⁹ / l, monocytes - 1.18 x 10 ⁹ / l. Phagocytic granulophytes - 5.9 * 10 ⁹ / L, CD3 + HLA-DR + - 0.066 * 10 ⁹ / L, Y = 0.4, a conclusion is made on the drug sensitivity of the isolate

Therapy: kanamycin, rifampicin, pyrazinamide, ethambutol, isoniazid, levofloxacin, IA regimen (-). The duration of treatment in the hospital was 145 days. The outcome of the disease is recovery.

обнаружены 11.01.12 в мокроте методом люминесцентной микроскопии, 20.01.12 в плевральном экссудате методом ПЦР. В общем анализе крови (29.02.12): лейкоцитоз - 6,1*10⁹/л, гранулоцитов - 3,29*10⁹/л, базофилов - 0,18*10⁹/л, эозинофилов - 0,37*10⁹/л, лимфоцитов - 2,26*10⁹/л, моноцитов - 0,55*10⁹/л. Фагоцитирующих гранулофитов - 5,9*10⁹/л, CD3+HLA-DR+ - 0,066*10⁹/л, Y=0,4, сделано заключение о лекарственной чувствительности изолята

Терапия: канамицин, рифампицин, пиразинамид, этамбутол, изониазид, левофлоксацин, режим терапии IA(-). Длительность лечения в стационаре составила 145 суток. Исход заболевания - выздоровление.2. Patient P., born in 1962 Ds: infiltrative tuberculosis, 1 lobe lesion, resorption phase, exudative pleurisy. The date of initial diagnosis is 11/27/2011 with the appearance of clinical signs confirmed by the x-ray method. Concomitant pathology: stomach ulcer, chronic pyelonephritis, chronic gastritis. Hospitalized on 01.2012, fell ill acutely, pain in the lion. sideways when breathing, shortness of breath when breathing, t up to 38 ° С. Social status: married, 2 children, does not drink alcohol, disabled person of 2 groups, a resident of the city, denies tuberculous contact, does not smoke.

detected on 01/01/12 in sputum by luminescence microscopy, 01/20/12 in pleural exudate by PCR. In a general blood test (02.29.12): leukocytosis - 6.1 * 10 ⁹ / l, granulocytes - 3.29 * 10 ⁹ / l, basophils - 0.18 * 10 ⁹ / l, eosinophils - 0.37 * 10 ⁹ / l, lymphocytes - 2.26 * 10 ⁹ / l, monocytes - 0.55 * 10 ⁹ / l. Phagocytic granulophytes - 5.9 * 10 ⁹ / L, CD3 + HLA-DR + - 0.066 * 10 ⁹ / L, Y = 0.4, a conclusion is made on the drug sensitivity of the isolate

Therapy: kanamycin, rifampicin, pyrazinamide, ethambutol, isoniazid, levofloxacin, IA regimen (-). The duration of treatment in the hospital was 145 days. The outcome of the disease is recovery.

обнаружены неоднократно методом люминесцентной микроскопии, методом световой микроскопии по Циль-Нильсену, при посеве на плотные среды. В общем анализе крови (10.12.13): лейкоцитоз - 5,3*10⁹/л, гранулоцитов - 3,3*10⁹/л, базофилов - 0,05*10⁹/л, эозинофилов - 0,16*10⁹/л, лимфоцитов - 1,50*10⁹/л, моноцитов - 0,47*10⁹/л. Фагоцитирующих гранулофитов - 2,29*10⁹/л, CD3+HLA-DR+ - 0,012*10⁹/л, Y=1,3, сделано заключение об отсутствии лекарственной чувствительности изолята

установлена множественная лекарственная устойчивость изолята. Резистентность выявлена в 2012: изониазид, рифампицин, этамбутол, канамицин, фторхинолоны, ПАСК в 2013: стрептомицин, изониазид, рифампицин, этионамид, циклосерин, канамицин, капреомицин, ПАСК, офлоксацин. Терапия: пиразинамид, левофлоксацин, амоксициллин, клофазимин, протионамид, режим терапии индивидуальный, пневмоперитонеум. Длительность лечения в стационаре составила 231 сутки. Исход заболевания - улучшение.3. Patient Sh., B. 1987, Ds: infiltrative pulmonary tuberculosis, a developing tuberculosis with seeding. The diagnosis was first established in 2012. Concomitant pathology: osteochondrosis of the spine, sensorineural hearing loss. Clinical signs of the disease: febrile temperature, weakness, cough with sputum, weight loss. Social status: married, city dweller, disabled person of group 2, does not work, does not smoke, son and mother died from tuberculosis.

found repeatedly by luminescent microscopy, light microscopy according to Ziehl-Nielsen, when plated on solid media. In the general blood test (12/10/13): leukocytosis - 5.3 * 10 ⁹ / l, granulocytes - 3.3 * 10 ⁹ / l, basophils - 0.05 * 10 ⁹ / l, eosinophils - 0.16 * 10 ⁹ / l, lymphocytes - 1.50 x 10 ⁹ / l, monocytes - 0.47 x 10 ⁹ / l. Phagocytic granulophytes - 2.29 * 10 ⁹ / L, CD3 + HLA-DR + - 0.012 * 10 ⁹ / L, Y = 1.3, a conclusion was made about the lack of drug sensitivity of the isolate

established multidrug resistance of the isolate. Resistance was detected in 2012: isoniazid, rifampicin, ethambutol, kanamycin, fluoroquinolones, PASK in 2013: streptomycin, isoniazid, rifampicin, ethionamide, cycloserine, kanamycin, capreomycin, PASK, ofloxacin. Therapy: pyrazinamide, levofloxacin, amoxicillin, clofazimine, protionamide, individual treatment regimen, pneumoperitoneum. The duration of treatment in the hospital was 231 days. The outcome of the disease is improvement.

обнаружены при посеве на плотные среды (11.02.14). В общем анализе крови (10.12.13): лейкоцитоз - 6,4*10⁹/л, гранулоцитов - 4,52*10⁹/л, лимфоцитов - 1,43*10⁹/л, моноцитов - 0,45*10⁹/л. Фагоцитирующих гранулофитов - 3,74*10⁹/л, CD3+HLA-DR+ - 0,003*10⁹/л, Y=1,1, сделано заключение об отсутствии лекарственной чувствительности изолята

, установлена множественная лекарственная устойчивость. Резистентность: стрептомицин, рифампицин, канамицин, этионамид. 01.09.2011 выполнена атипичная краевая резекция легкого. Терапия: изониазид, капреомицин, пиразинамид, рифадин. Режим терапии: 2Б. Длительность лечения в стационаре составила 230 суток. Исход заболевания - улучшение.4. Patient S., born in 1986, Ds: infiltrative pulmonary tuberculosis, decomposition phase. The diagnosis was first established in 2010. Concomitant pathology diabetes insipidus, emphysema, Chiari anomaly. Clinical picture: in 2010 there was pain in the right half of the chest, shortness of breath, spontaneous pneumothorax on the right, 2011 - repeated pneumothorax. Social status: city dweller, seller, denial of TB contact.

found when sowing on solid media (02/11/14). In the general analysis of blood (10.12.13): leukocytosis - 6.4 * 10 ⁹ / l, granulocytes - 4.52 * 10 ⁹ / l, lymphocytes - 1.43 * 10 ⁹ / l, monocytes - 0.45 * 10 ⁹ / l Phagocytic granulophytes - 3.74 * 10 ⁹ / L, CD3 + HLA-DR + - 0.003 * 10 ⁹ / L, Y = 1.1, the conclusion about the lack of drug sensitivity of the isolate

established multidrug resistance. Resistance: streptomycin, rifampicin, kanamycin, ethionamide. 09/01/2011 performed atypical regional resection of the lung. Therapy: isoniazid, capreomycin, pyrazinamide, rifadin. Therapy regimen: 2B. The duration of treatment in the hospital was 230 days. The outcome of the disease is improvement.

References

1. Phthisiology: nat. hands / V.A. Aksenova, A.S. Apt, V.S. Barinov et al. / Ed. M.I. Perelman. - M .: GOETAR-Media, 2010 .-- 521 p. (Series "National Guides"). - Ch. 5. - Page 87.

2. Cultural methods for the diagnosis of tuberculosis: a tutorial for conducting a basic course of training for specialists of bacteriological laboratories of tuberculosis services / Ed. V.V. Erokhina. - M .: Triad. - 2008 .-- 208 p. - Page 125.

3. Cultural methods for the diagnosis of tuberculosis: a tutorial for conducting a basic course of training for specialists of bacteriological laboratories of tuberculosis services / Ed. V.V. Erokhina. - M .: Triad. - 2008 .-- 208 p. - Page 135.

4. Cultural methods for the diagnosis of tuberculosis: a tutorial for conducting a basic training course for specialists in bacteriological laboratories of tuberculosis service institutions / Ed. V.V. Erokhina. - M .: Triad. - 2008 .-- 208 p. - Page 123.

5. RF patent No. 2562866 A method for detecting tuberculosis pathogen DNA with simultaneous determination of its genotype and determination of genetic determinants of multidrug and wide drug resistance, an oligonucleotide microchip, a set of primers and a set of oligonucleotide probes used in the method / D.A. Gryadunov, D.V. Zimenkov. - declared. 11/11/2014, publ. 09/10/2015.

6. Internet resource http://www.activestudy.info/dragie-metody-opredeleniya-chuvstvitelnosti-mikroorganizmov-k-antibiotikam/.

7. Federal clinical guidelines for the diagnosis and treatment of respiratory tuberculosis with MDR and XDR pathogen. - M., 2015 .-- S. 7.

8. Garib F.Yu. Interactions of pathogenic bacteria with innate immune responses of the host / F.Yu. Garib, A.P. Rizopulu // Infection and immunity. - SPb .: NIIEM named after Pasteur. - 2012. - No. 3. - S. 581-596.

9. Pisarenko M.S. Features of the secretion of interferon gamma in drug-resistant pulmonary tuberculosis / M.S. Pisarenko // Fundamental research. - M.: Publishing House Academy of Natural Sciences. - 2013. - No. 9. - S. 444-447.

10. Khasanova P.P. Reactivity of blood lymphocytes in pulmonary tuberculosis / R.R. Khasanova, O.V. Voronkova, O.I. Urazova, V.V. Novitsky, A.K. Strelis, Yu.V. Istanbul, A.E. Kolosova, V.A. Serebryakova, I.O. Naslednikova, O.V. Kolokolova, T.E. Budkina, N.P. Pirogov // Medical immunology. - 2009. - T. 11. - No. 1. - S. 35-40.

11. Zemlyanaya N.A. Clinical and immunological features of multidrug-resistant pulmonary tuberculosis [Text]: author. dis. ... cand. honey. Sciences / Nataliya Alexandrovna Zemlyanaya. - Tomsk, 2007 .-- 24 p.

12. Sun J. Measurement of Nitric Oxide Production in Biological Systems by Using Griess Reaction Assay / Jie Sun, Xueji Zhang, Mark Broderick, Harry Fein // Sensors. - 2003. - No. 3. - P. 276-284.

Claims (1)

A method for evaluating the drug sensitivity of Mycobacterium tuberculosis based on the results of determining the immunological parameters of blood in a patient with pulmonary tuberculosis, including a blood test, characterized in that the absolute number of phagocytic granulocytes and T-lymphocytes expressing the late activation marker HLA-DR-Ag is calculated with calculation of the result by the formula Y = 1,76-5,08X1-0,17X2, where X1 - CD3 ⁺ HLA-DR ⁺ (10 ⁹ / liter), X2 - the number of phagocytic granulocytes (10 ⁹ / liter), and with a value of Y <1 do conclusion about drug susceptible isolates of the causative agent of tuberculosis, and Y≥1 - isolates that do not have drug sensitivity.